You are here:
Manganese Testing under a Clean Air Act Test Rule and the Application of Resultant Data in Risk Assessments
Citation:
Smith, D., G. Woodall, A. Jarabek, AND W. Boyes. Manganese Testing under a Clean Air Act Test Rule and the Application of Resultant Data in Risk Assessments. NEUROTOXICOLOGY. Elsevier B.V., Amsterdam, Netherlands, 64:177-184, (2018).
Impact/Purpose:
This is a review of the literature and previous EPA actions regarding manganese.
Description:
In the 1990’s, the proposed use of methylcyclopentadienyl manganese tricarbonyl (MMT) as an octane-enhancing gasoline fuel additive led to concerns for potential public health consequences from exposure to manganese (Mn) combustion products in automotive exhaust. After a series of regulatory / legal actions and negotiations, the U.S. Environmental Protection Agency (EPA) issued under Clean Air Act (CAA) section 211(b) an Alternative Tier 2 Test Rule that required development of scientific information intended to help resolve uncertainties in exposure or health risk estimates associated with MMT use. Among the uncertainties identified were: the chemical forms of Mn emitted in automotive exhaust; the relative toxicity of different Mn species; the potential for exposure among sensitive subpopulations including females, the young and elderly; differences in sensitivity between test species and humans; differences between inhalation and oral exposures; and the influence of dose rate and exposure duration on tissue accumulation of Mn. It was anticipated that development of specific sets of pharmacokinetic (PK) information and models regarding Mn could help resolve many of the identified uncertainties and serve as the best foundation for available data integration. The results of the test program included development of several unique Mn datasets, and a series of increasingly sophisticated Mn physiologically-based pharmacokinetic (PBPK) models. These data and models have helped address each of the uncertainties originally identified in the Test Rule. The output from these PBPK models were used by the Agency for Toxic Substances and Disease Registry (ATSDR) in 2012 to inform the selection of uncertainty factors for deriving the manganese Minimum Risk Level (MRL) for chronic exposure durations. The EPA used the MRL in the Agency’s 2015 evaluation of potential residual risks of airborne manganese released from ferromanganese plants. This resultant set of scientific data and models likely would not exist without the CAA section 211(b) test rule regulatory procedure.
